Progress in Teflon AF LWCC/LCW Applications

SUN Zhao-hua; ZHOU Wen; XU Zhan-tang; YE Hai-bin; YANG Chao-yu; LIN Jun-fang; HU Shui-bo; YANG Yue-zhong; LI Cai; CAO Wen-xi

doi:10.3964/j.issn.1000-0593(2011)11-2881-05

Journals >Spectroscopy and Spectral Analysis >Volume 31 >Issue 11 >Page 2881 > Article

Spectroscopy and Spectral Analysis
Vol. 31, Issue 11, 2881 (2011)

Progress in Teflon AF LWCC/LCW Applications

SUN Zhao-hua^1、2、*, ZHOU Wen¹, XU Zhan-tang^1、2, YE Hai-bin^1、2, YANG Chao-yu^1、2, LIN Jun-fang^1、2, HU Shui-bo^1、2, YANG Yue-zhong¹, LI Cai¹, and CAO Wen-xi¹

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¹[in Chinese]

²[in Chinese]

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DOI: 10.3964/j.issn.1000-0593(2011)11-2881-05 Cite this Article

SUN Zhao-hua, ZHOU Wen, XU Zhan-tang, YE Hai-bin, YANG Chao-yu, LIN Jun-fang, HU Shui-bo, YANG Yue-zhong, LI Cai, CAO Wen-xi. Progress in Teflon AF LWCC/LCW Applications[J]. Spectroscopy and Spectral Analysis, 2011, 31(11): 2881 Copy Citation Text

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Abstract

Teflon AF is chemically very inert, quite physically and optically stable, a highly vapor-permeable polymer with optical transparency through much of the UV-Vis region and with an RI lower than that of water, so Teflon AF LWCC/LCW (Long path-length liquid waveguide capillary cell/liquid core waveguides) has been used with a range of different detection techniques, including absorbance spectroscopy, fluorescence spectroscopy, Raman spectroscopy, and gas sensor. The present article describes the properties and the aspects of Teflon AF LWCC/LCW instrumentation and applications. And finally，the future prospect and outlook of Teflon AF LWCC/LCW is also discussed．

Keywords

Instrument analysis Spectral analysis Teflon AF LWCC/LCW

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